Solar power production has grown significantly over the course of the past decade, both in the form of industrialized systems that produce for communities as well as individual systems that are available for residential usage. The growing widespread adoption of solar power systems to produce consumable energy can be attributed on the industrial level to the fact that is has the ability to not only generate cleaner power with less environmental impact, but also has the ability to generate less expensive power as technology improves. The adoption of solar power systems on the residential level has to do with the ability to generate power for your own consumption yourself, and the availability of sunlight as a fuel source in far more situations that other sources like running water or even wind. Quite simply, solar power production is the future and will improve the communities that it is adopted within, producing necessary electricity in more widespread applications with less environmental impact than any of the other forms.

As the interest in solar power increases both residentially and industrially, the advancement of the technological aspects toward improved systems naturally is also of great interest. Once a legitimate system is developed that improves upon the existing system with regard to aspects that the public find important, that system will quickly advance to its logical level of technological advancement based on nothing more than the desire to put it in place as a replacement. It is only after it has been recognized as a legitimate replacement on a widespread level that it will begin to see technological improvements with regard to the existing system in place in order to make further improvements can be made. Such is the case with the integration of solar surge protection across all types of solar power protection systems.

Solar surge protection for both residential and commercial systems came from the realization that a working solar power system is a target for lighting strikes. Because the solar panels are installed in open spaces that are unobstructed, they are a natural strike point for lightning, causing damage to the panels where the strike happens. While this is expected and is difficult to prevent, the associated damage downstream from the strike point has become more of an issue. The resulting damage to control equipment associated with the power production process as a result of power surges overloading the circuitry is expensive, and needs to be reduced in order to make the widespread adoption of solar power systems more viable. Through the integration of advanced solar power surge protection at crucial points in the power flow path, the sensitive equipment can be protected to a greater degree than is currently seen, thus avoiding damage expenses that are currently barriers to advancement in many working systems. If the damage can be minimized or avoided all together, it can reduce the expected operating expense to a point that is more favorable, and potentially bring the entire cost of production below that of fossil fuels in industrial applications. Reduced production costs will make solar power even more desirable, and fuel even more widespread adoption.